This invention relates to a sawmill. A particularly preferred embodiment relates to a portable sawmill with a swing blade saw.
It is known to assemble portable sawmills for milling logs. This may involve a frame structure supporting a saw carriage above a log. The saw carriage moves back and forth along a horizontal beam elevated between end frames, to bring a circular saw blade into contact with the log. On one pass along the log the blade makes a vertical cut, is flipped through 90°, and is then run back along the log to make an intersecting horizontal cut. By repeating the process, flipping the blade between horizontal and vertical for each pass, and periodically adjusting the height of the carriage, the log can be reduced into a series of planks.
It is an object of a preferred embodiment of the invention to provide a sawmill which can be used to mill a log in the manner described above. While this object applies to the preferred embodiment, it should be appreciated that this does not define the object of the invention per se. In its broadest sense the object of the invention is simply to provide the public with a useful choice.
The term “comprises”, or derivatives thereof, when used in connection with a number of features should not be taken to exclude the optional presence of features over and above those specifically listed. The term should therefore to be construed in a non-limiting manner.
According to one aspect of the invention there is provided a sawmill having:
the sawmill formed such that the carriage is able to be driven away from the operator end with the saw in the horizontal cutting orientation to contact the stopper when the carriage is at a predetermined position along the track, such contact resulting in the flip means automatically moving the saw into the vertical cutting orientation for making a vertical cut back towards the operator end, the saw being such that when at the operator end it can be manually flipped back to the horizontal cutting orientation.
Optionally the flip means comprises a gas strut.
Optionally each end frame is generally in the shape of an inverted “T”.
Optionally there is only one track.
Optionally there is a controller at the operator end for activating movement of the saw carriage away from and subsequently back towards the operator end.
Optionally the flip means comprises a swing arm which releasably bears against a locking head (eg a conical head) to lock the saw in the horizontal cutting orientation.
Optionally the flip means comprises a swing arm which releasably bears against a locking head (eg a conical head) to lock the saw in the vertical cutting orientation.
Optionally the carriage has a rotating drum which engages a fixed cord or chain such that rotation of the drum causes the carriage the move along the cord or chain away from or towards the operator end depending on the direction that the drum rotates.
Optionally the drum can be activated to turn clockwise or anticlockwise by pulling on a control cord from the operator end.
Optionally the control cord extends around a pivoting roller at the carriage and causes the roller to pivot up or down depending on how much tension the control cord is under, such pivoting movement of the roller causing movement of a lever connected to the pivoting roller to regulate the direction of movement of the carriage.
Optionally the control cord extends under fixed rollers situated either side of the pivoting roller.
Optionally the flip means comprises a counterweight.
Optionally the flip means comprises a hydraulic strut.
Optionally the sawmill is such that manual movement of the saw from the vertical to horizontal energises the flip means (eg a gas strut, hydraulic strut or counterweight arrangement) with sufficient energy to cause flipping of the saw from the horizontal to vertical orientation when the relocatable stopper is contacted by the carriage.
Some preferred forms of the invention will now be described by way of example and with reference to the accompanying drawings, of which:
As shown in the drawings a sawmill 1 has a pair of inverted T-shaped end frames 2 supporting an elevated horizontal track 3. A saw carriage 4 can move along the track to carry a circular saw 5 away from an operator end 6 of the sawmill, and then back. The sawmill has a blade flip mechanism 7 which enables the saw's blade 8 to be set in a horizontal cutting orientation, and then a vertical cutting orientation.
Starting at the operator end 6 with the blade 8 in a horizontal orientation, the carriage 4 is driven along the track 3 so that the blade makes a horizontal cut in an underlying log (not shown). When the blade has passed out the far end of the log the flip mechanism 7 causes the blade to move through 90° to assume a vertical cutting orientation. The carriage is then driven back towards the operator end 6 to make a vertical cut in the log, intersecting the horizontal cut. When the blade has passed back through the log, a workman manually causes the blade 8 to revert to a horizontal cutting orientation. The saw is adjusted sideways and the blade is again driven through the log, ie heading away from the operator end. By making repeated intersecting horizontal and vertical sweeps through the log in this manner, a row of planks is eventually milled. At that point the track 3 is adjustably lowered to enable a new row of planks to be milled in the same way.
It is preferable that the blade 8 is always in the horizontal cutting orientation as it moves away from the operator end 6. This is because the weight of a plank or slab being cut may bear against the horizontal blade under gravity, thereby increasing the risk of the plank or slab being thrown forward.
When the carriage 4 gets to a predetermined distance away from the operator end, eg with the blade having passed out the far end of a log, the carriage 4 strikes or bumps against a relocatable stopper 13 positioned on the track 3. This contact activates the flip mechanism 7 to automatically swing the blade 8 to a vertical cutting orientation. More specifically, and with reference to
Referring to
Referring to
In some embodiments of the invention the carriage 4 may be disconnected from its drive mechanism and moved along the track 3 manually. The saw 4 may also be mechanically disengaged and then flipped between horizontal and vertical manually at the far end, although preferably travel of the carriage and flipping of the saw at the far end are mechanically powered.
Referring to
As also shown in
Preferably the workman causes the blade 8 to flip from its vertical orientation back to its horizontal orientation each time the carriage has returned to the operator end. This is achieved by the workman grasping the swing arm 16 and moving it from its
In alternative embodiments of the invention the gas strut 17 may be replaced by a generally similar hydraulic strut, a counterweight mechanism or some other arrangement sufficient to cause the blade 8 to mechanically flip to vertical when at the remote end of the sawmill.
Referring to
It will be appreciated that the sawmill is such that a workman can operate it completely from the operator end, pulling on the lever 20 one way or the other to control the direction of movement of the carriage 4. By appropriately positioning the stopper 13 on the track 3 the saw 5 flips from a horizontal to vertical cutting orientation automatically when through a log at the far end, and the workman manually flips the saw 5 back to a horizontal orientation when it arrives back at the operator end. Flipping the saw 5 to the horizontal orientation serves to energise the gas strut 17 (or hydraulic strut or counterweight as the case may be) so there is sufficient energy to flip the saw 4 to vertical at the far end.
While some preferred forms of the invention have been described by way of example it should be appreciated that modifications and improvements can occur without departing from the scope of the following claims.
Number | Date | Country | Kind |
---|---|---|---|
700006 | Sep 2014 | NZ | national |